阅读说明：本技术 一种砂岩型铀矿取样平面分布图成图方法 (Sandstone-type uranium ore sampling plane distribution diagram mapping method ) 是由 乔淇 张明林 任满船 张占峰 蒋宏 张磊 武永利 李旭 方敏 于 2019-08-20 设计创作，主要内容包括：提供一种砂岩型铀矿取样平面分布图成图方法,实现了全流程自动化、智能化,有效的提高工作效率和成图精度；包括以下步骤:S1：选定需要进行地质勘查的区域,绘制该区域矩形勘探线图S2：确定矩形勘探线图的长度和宽度：S3：确定S2中得到的砂岩型铀矿取样平面分布图中钻孔样品种类及数量；S4：确定钻孔样品种类及样品数量所对应样品圆圈颜色形。(The sandstone-type uranium ore sampling plane distribution diagram mapping method is provided, the automation and the intellectualization of the whole process are realized, and the working efficiency and the mapping precision are effectively improved; comprising the steps of S1: selecting a region needing geological exploration, and drawing a rectangular exploration line graph S2 of the region: determining the length and width of the rectangular survey map: s3: determining the types and the number of the drilling samples in the sandstone-type uranium ore sampling plane distribution map obtained in the step S2; s4: and determining the circular color shapes of the samples corresponding to the types and the number of the drilling samples.)

1. A sandstone-type uranium ore sampling plane distribution map mapping method is characterized by comprising the following steps: the method comprises the following steps:

s1: selecting a region to be subjected to geological exploration, and drawing a rectangular exploration line map of the region, wherein the rectangular exploration line comprises a plurality of drill holes; and determining a survey line in the survey line graph through the borehole;

s2: determining the length and width of the rectangular survey map:

establishing a coordinate system by taking one end point of the rectangular survey line graph determined in the S1 as an origin, wherein coordinates of the drill hole No. 1 to the drill hole No. n in the rectangular survey line graph are sequentially (X1, Y1), (X2, Y2), (X3, Y3,), … … (Xn, Yn);

calculating the most value of coordinates from No. 1 drill hole to No. n drill hole in the rectangular exploration line graph, wherein:

the minimum X value of all borehole coordinates, namely min (zkx) min (zk1.X, zk2. X.,. zkn. X);

the minimum Y value of all borehole coordinates, min (zky) min (zk1.y, zk2.y.. zkn.y);

the maximum X value of all borehole coordinates, namely max (zkx) max (zk1.x, zk2.x.. zkn.x);

max (zky) max (zk1.y, zk2.y.. zkn.y);

minimum X value of all survey line end points, min (ktxx) min (ktxx 1.X, ktxx 2.X,... ktxn.x);

the minimum Y value of all survey line end points, min (ktxy) min (ktx1.Y, ktx2.Y.. kl.. ktx n. Y);

the maximum X value of all survey line end points, max (ktxx) max (ktx1.X, ktx2.X,... ktxn. X);

max (ktxy) max (ktx1.Y, ktx2.Y.... ktxn.y) which is the maximum Y value of all survey line endpoints;

minimum X value for all sample circle center points, min (yqx) min (yq1.X, yq2.X, yq3. X.. yqn. X);

minimum Y value for all sample circle center points, min (yqy) min (yq1.Y, yq2.Y, yq3. Y.. yqn. Y);

the maximum X value of all sample circle center points, i.e., max (yqx) max (yq1.X, yq2.X, yq3. X.. yqn. X);

the maximum Y value of all sample circle center points, i.e., max (yqy) max (yq1.y, yq2.y, yq3.y.. yqn.y);

obtaining a sandstone-type uranium ore sampling plane distribution map:

the minimum X value of the profile min (zkx), min (ktxx), min (yqx));

the minimum Y value of the profile min (zky), min (ktxy), (min (yqy));

maximum X value of profile max (zkx), max (ktxx), max (yqx));

maximum Y value of profile max (zky), max (ktxy), max (yqy));

the method comprises the steps that the length of a map amplitude of a sandstone-type uranium ore sampling plane distribution map is the maximum Y value of the distribution map and the minimum Y value of the distribution map;

the width of a sandstone-type uranium ore sampling plane distribution diagram is the maximum X value of the distribution diagram-the minimum X value of the distribution diagram;

wherein:

zk1.x represents: the x value of borehole orifice coordinate No. 1, zk2.x denotes: x value for borehole orifice coordinate No. 2, zkn. x denotes: x value of n number of borehole orifice coordinates;

ktx1.x denotes: the x value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.x denotes: x value of coordinates of starting point or ending point of survey line No. 2, ktxn.x represents: x value of the coordinate of the starting point or the ending point of the n exploration line;

yq1.x. denotes: the x value of the 1 st sample circle center point coordinate, yq1.x. represents: the x value of the 2 nd sample circle center point coordinate, yqn.x. represents: x value of the center point coordinate of the circle of the nth sample;

zk1.y represents: the y value for borehole orifice coordinate No. 1, zk2.y represents: the y value for borehole orifice coordinate number 2, zkn. y denotes: the y value of the n number of drilling hole coordinates;

ktx1.y denotes: the y value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.y denotes: y value of coordinates of starting point or ending point of survey line No. 2, ktxn.y represents: the y value of the coordinate of the starting point or the ending point of the n exploration line;

yq1.y. denotes: the y value of the 1 st sample circle center point coordinate, yq2.y. indicates: the y value of the 2 nd sample circle center point coordinate, yq1.y. indicates: the y value of the center point coordinate of the circle of the nth sample;

s3: determining the types and the number of the drilling samples in the sandstone-type uranium ore sampling plane distribution map obtained in the step S2;

s4: and determining the circular color shapes of the samples corresponding to the types and the number of the drilling samples.

2. The method for mapping the sandstone-type uranium ore sampling plane according to claim 1, wherein: in S3, if there are c sample types in the sampling plan, there must be the number of samples corresponding to the c sample types;

the borehole sample types are expressed as: h1, h2, h3

h1 corresponds to 1 drilled sample

h2 corresponds to 2 borehole samples

h3 corresponds to 3 drilled samples

…..

hc corresponds to c drilled samples.

3. The method for mapping the sandstone-type uranium ore sampling plane according to claim 1, wherein: in the step S4, in the step S,

if the type of the drilling sample is h1, dividing the circle of the drilling sample into 1 part;

if the type of the drilling sample is h2, dividing the circle of the drilling sample into 2 parts;

…..

if the borehole sample type is hy, the borehole sample circle is equally divided into c parts.

4. The method for mapping the sandstone-type uranium ore sampling plane according to claim 3, wherein: in S4, circles for each of the drill samples are represented by different colors.

5. The method for mapping the sandstone-type uranium ore sampling plane according to claim 4, wherein: in S4, circles are represented by different colors for each of the drill samples.

6. The method for mapping the sandstone-type uranium ore sampling plane according to claim 3, wherein: in S4, circles for each of the drill samples are indicated by different symbols.

7. The method for mapping the sandstone-type uranium ore sampling plane according to claim 3, wherein: in S4, circles for each drill sample are indicated by different symbols.

Technical Field

The invention relates to a sandstone-type uranium ore sampling plane distribution diagram mapping method

Background

Most of the previous sampling plane distribution maps are manually completed, the workload is large, and the calculation is complex. Along with the improvement of the investigation degree of a working area, a large amount of drilling data are accumulated, in order to finish a sampling plane distribution diagram, a former person is inevitably utilized to form geological data to form the latest and most complete sampling plane distribution diagram, and the latest and most complete sampling plane distribution diagram needs to be rearranged and drawn, so that the workload is greatly increased, and the working efficiency is reduced. With the comprehensive and rapid development of computer technology, a nuclear industry system develops digital coal mine exploration software and establishes an independent database of the whole coal mine exploration process. The full process automation and intellectualization are realized, and the working efficiency and the mapping precision are effectively improved.

Disclosure of Invention

The invention aims to: the sandstone-type uranium ore sampling plane distribution diagram mapping method is provided, full process automation and intellectualization are achieved, and working efficiency and mapping precision are effectively improved.

The invention has the following remarkable effects: the invention needs to be manually, fussy and repeated for compiling the sandstone-type coal mine sampling plane distribution map in the coal mine geological exploration based on the digital coal mine exploration software, thereby realizing the digitization, standardization and informatization of the sampling plane distribution map.

The technical scheme of the invention is as follows: a sandstone-type uranium ore sampling plane distribution map mapping method comprises the following steps:

s1: selecting a region to be subjected to geological exploration, and drawing a rectangular exploration line map of the region, wherein the rectangular exploration line comprises a plurality of drill holes; and determining a survey line in the survey line graph through the borehole;

s2: determining the length and width of the rectangular survey map:

establishing a coordinate system by taking one end point of the rectangular survey line graph determined in the S1 as an origin, wherein coordinates of the drill hole No. 1 to the drill hole No. n in the rectangular survey line graph are sequentially (X1, Y1), (X2, Y2), (X3, Y3,), … … (Xn, Yn);

calculating the most value of coordinates from No. 1 drill hole to No. n drill hole in the rectangular exploration line graph, wherein:

the minimum X value of all borehole coordinates, namely min (zkx) min (zk1.X, zk2. X.,. zkn. X);

the minimum Y value of all borehole coordinates, min (zky) min (zk1.y, zk2.y.. zkn.y);

the maximum X value of all borehole coordinates, namely max (zkx) max (zk1.x, zk2.x.. zkn.x);

max (zky) max (zk1.y, zk2.y.. zkn.y);

minimum X value of all survey line end points, min (ktxx) min (ktxx 1.X, ktxx 2.X,... ktxn.x);

the minimum Y value of all survey line end points, min (ktxy) min (ktx1.Y, ktx2.Y.. kl.. ktx n. Y);

the maximum X value of all survey line end points, max (ktxx) max (ktx1.X, ktx2.X,... ktxn. X);

max (ktxy) max (ktx1.Y, ktx2.Y.... ktxn.y) which is the maximum Y value of all survey line endpoints;

minimum X value for all sample circle center points, min (yqx) min (yq1.X, yq2.X, yq3. X.. yqn. X);

minimum Y value for all sample circle center points, min (yqy) min (yq1.Y, yq2.Y, yq3. Y.. yqn. Y);

the maximum X value of all sample circle center points, i.e., max (yqx) max (yq1.X, yq2.X, yq3. X.. yqn. X);

the maximum Y value of all sample circle center points, i.e., max (yqy) max (yq1.y, yq2.y, yq3.y.. yqn.y);

obtaining a sandstone-type uranium ore sampling plane distribution map:

the minimum X value of the profile min (zkx), min (ktxx), min (yqx));

the minimum Y value of the profile min (zky), min (ktxy), (min (yqy));

maximum X value of profile max (zkx), max (ktxx), max (yqx));

maximum Y value of profile max (zky), max (ktxy), max (yqy));

the method comprises the steps that the length of a map amplitude of a sandstone-type uranium ore sampling plane distribution map is the maximum Y value of the distribution map and the minimum Y value of the distribution map;

the width of a sandstone-type uranium ore sampling plane distribution diagram is the maximum X value of the distribution diagram-the minimum X value of the distribution diagram;

wherein:

zk1.x represents: the x value of borehole orifice coordinate No. 1, zk2.x denotes: x value for borehole orifice coordinate No. 2, zkn. x denotes: x value of n number of borehole orifice coordinates;

ktx1.x denotes: the x value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.x denotes: x value of coordinates of starting point or ending point of survey line No. 2, ktxn.x represents: x value of the coordinate of the starting point or the ending point of the n exploration line;

yq1.x. denotes: the x value of the 1 st sample circle center point coordinate, yq1.x. represents: the x value of the 2 nd sample circle center point coordinate, yqn.x. represents: x value of the center point coordinate of the circle of the nth sample;

zk1.y represents: the y value for borehole orifice coordinate No. 1, zk2.y represents: the y value for borehole orifice coordinate number 2, zkn. y denotes: the y value of the n number of drilling hole coordinates;

ktx1.y denotes: the y value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.y denotes: y value of coordinates of starting point or ending point of survey line No. 2, ktxn.y represents: the y value of the coordinate of the starting point or the ending point of the n exploration line;

yq1.y. denotes: the y value of the 1 st sample circle center point coordinate, yq2.y. indicates: the y value of the 2 nd sample circle center point coordinate, yq1.y. indicates: the y value of the center point coordinate of the circle of the nth sample;

s3: determining the types and the number of the drilling samples in the sandstone-type uranium ore sampling plane distribution map obtained in the step S2;

s4: determining the circular color shapes of the samples corresponding to the types and the number of the drilling samples;

in S3, if there are c sample types in the sampling plan, there must be the number of samples corresponding to the c sample types;

the borehole sample types are expressed as: h1, h2, h3

h1 corresponds to 1 drilled sample

h2 corresponds to 2 borehole samples

h3 corresponds to 3 drilled samples

…..

hc corresponds to c drilled samples.

In the step S4, in the step S,

if the type of the drilling sample is h1, dividing the circle of the drilling sample into 1 part;

if the type of the drilling sample is h2, dividing the circle of the drilling sample into 2 parts;

…..

if the borehole sample type is hy, the borehole sample circle is equally divided into c parts.

In S4, circles for each of the drill samples are represented by different colors.

In S4, circles are represented by different colors for each of the drill samples.

In S4, circles for each of the drill samples are indicated by different symbols.

In S4, circles for each drill sample are indicated by different symbols.

The invention has the advantages of improving the working efficiency, and the pictures are digital data, and can repeatedly call, modify and utilize data.

Specific implementation and verification:

a sandstone-type uranium ore sampling plane distribution map mapping method comprises the following steps:

s1: selecting a region to be subjected to geological exploration, and drawing a rectangular exploration line map of the region, wherein the rectangular exploration line comprises a plurality of drill holes; and determining a survey line in the survey map through the borehole

S2: determining the length and width of the rectangular survey map:

establishing a coordinate system by taking one end point of the rectangular survey line graph determined in the S1 as an origin, wherein coordinates of the drill hole No. 1 to the drill hole No. n in the rectangular survey line graph are sequentially (X1, Y1), (X2, Y2), (X3, Y3,), … … (Xn, Yn);

calculating the most value of coordinates from No. 1 drill hole to No. n drill hole in the rectangular exploration line graph, wherein:

the minimum X value of all borehole coordinates, namely min (zkx) min (zk1.X, zk2. X.,. zkn. X);

the minimum Y value of all borehole coordinates, min (zky) min (zk1.y, zk2.y.. zkn.y);

the maximum X value of all borehole coordinates, namely max (zkx) max (zk1.x, zk2.x.. zkn.x);

max (zky) max (zk1.y, zk2.y.. zkn.y);

minimum X value of all survey line end points, min (ktxx) min (ktxx 1.X, ktxx 2.X,... ktxn.x);

the minimum Y value of all survey line end points, min (ktxy) min (ktx1.Y, ktx2.Y.. kl.. ktx n. Y);

the maximum X value of all survey line end points, max (ktxx) max (ktx1.X, ktx2.X,... ktxn. X);

max (ktxy) max (ktx1.Y, ktx2.Y.... ktxn.y) which is the maximum Y value of all survey line endpoints;

minimum X value of all sample circle center points, min (yqx) min (yq1.X, yq2.X, yq3.X,.. yqn. X)

Minimum Y value of all sample circle center points, min (yqy) min (yq1.Y, yq2.Y, yq3.Y,... yqn. Y)

The maximum X value of all sample circle center points, i.e., max (yqx) max (yq1.X, yq2.X, yq3. X.,. yqn. X)

The maximum Y value of all sample circle center points, max (yqy) max (yq1.y, yq2.y, yq3.y.. yqn.y)

Obtaining a sandstone-type uranium ore sampling plane distribution map:

the minimum X value of the profile min (zkx), min (ktxx), min (yqx));

the minimum Y value of the profile min (zky), min (ktxy), (min (yqy));

maximum X value of profile max (zkx), max (ktxx), max (yqx));

maximum Y value of profile max (zky), max (ktxy), max (yqy));

the length of the map width of the sandstone-type uranium ore sampling plane distribution map is the maximum Y value of the distribution map and the minimum Y value of the distribution map.

The width of a sandstone-type uranium ore sampling plane distribution diagram is the maximum X value of the distribution diagram-the minimum X value of the distribution diagram.

Wherein:

zk1.x represents: the x value of borehole orifice coordinate No. 1, zk2.x denotes: x value for borehole orifice coordinate No. 2, zkn. x denotes: x value of n number of borehole orifice coordinates;

ktx1.x denotes: the x value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.x denotes: x value of coordinates of starting point or ending point of survey line No. 2, ktxn.x represents: x value of the coordinate of the starting point or the ending point of the n exploration line;

yq1.x. denotes: the x value of the 1 st sample circle center point coordinate, yq1.x. represents: the x value of the 2 nd sample circle center point coordinate, yqn.x. represents: x value of center point coordinate of n sample circle

zk1.y represents: the y value for borehole orifice coordinate No. 1, zk2.y represents: the y value for borehole orifice coordinate number 2, zkn. y denotes: y value of n number of drill hole coordinates

ktx1.y denotes: the y value of the coordinates of the starting point or the ending point of survey line No. 1, ktx2.y denotes: y value of coordinates of starting point or ending point of survey line No. 2, ktxn.y represents: y value of coordinate of starting point or ending point of n exploration line

yq1.y. denotes: the y value of the 1 st sample circle center point coordinate, yq2.y. indicates: the y value of the 2 nd sample circle center point coordinate, yq1.y. indicates: y value of center point coordinate of n sample circle

S3: determining the types and the number of the drilling samples in the sandstone-type uranium ore sampling plane distribution map obtained in the step S2;

if there are c sample types in the sampling plan, there must be the number of samples corresponding to the c sample types;

the borehole sample types are expressed as: h1, h2, h3

h1 corresponds to 1 drilled sample

h2 corresponds to 2 borehole samples

h3 corresponds to 3 drilled samples

…..

hc corresponds to c borehole samples

S4: and determining the circular color shapes of the samples corresponding to the types and the number of the drilling samples.

If the type of the drilling sample is h1, dividing the circle of the drilling sample into 1 part;

if the type of the drilling sample is h2, dividing the circle of the drilling sample into 2 parts;

…..

if the type of the drilling sample is hy, equally dividing the circle of the drilling sample into c parts;

circles are represented by different colors for each drill sample.